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PA - C6 - PHY651R : Quantum Field Theory 2 (QFT2)

Domaine > Physique.

Descriptif

Lecturer: F. Gelis

The QFT2 course is centered on two main pillars: path integral quantization and
functional methods, and non-abelian gauge theories. As a prerequisite, it assumes a good knowledge of basic quantum field theory (canonical quantization, perturbation theory, scalar field theory and basics of quantum electrodynamics).

The first part of this course will devoted to the path integral approach in quantum field theory. Starting with elementary examples in quantum mechanics, we will firstly revisit the theory of an interacting scalar field with functional methods. Then, we will discuss the case of fermionic fields and introduce Grassman variables. Focusing on quantum electrodynamics, we will use these functional techniques in order to derive the Schwinger-Dyson equations.

The part on non-abelian gauge fields will start with a discussion of non-abelian Lie groups and algebras, their representations and of the field structures that admit such a local symmetry. Then, we will proceed with the path integral quantization of a vector field with an SU(N) local gauge symmetry, following the Fadeev-Popov method. After having derived the Feynman rules, we will discuss the unitarity and renormalizability of such a field theory, focusing on the aspects that make them different from simpler theories such as QED. An important step for this will be the BRST symmetry.  The  course will finish with a chapter on the renormalization group.

 

ECTS: 4

 

Course schedule: 

The course will be preceded by a few sessions of reminders of QFT1, held on:

 

  • Monday september 6 @ 13:30-15:30
  • Tuesday september 7 @ 10:00-12:00 and 13:30-15:30
  • Wednesday september 8 @ 10:00-12:00 and 13:30-15:30
  • Friday september 10 @ 10:00-12:00

 

The QFT2 course itself will be held on fridays @ 10:00-12:00  and 13:30-15:30: (In general, the lecture will be in the morning session, and the afternoon session will be devoted to solving exercises taken from the lecture notes. The selection of exercises will be given the week before as howework.)

  • september 17, 24
  • october 1, 15, 21 (unusual day), 22
  • november 5, 12

 

The exam will be held on friday november 19

Format des notes

Numérique sur 20

Littérale/grade réduit

Pour les étudiants du diplôme High Energy physics

Le rattrapage est autorisé (Note de rattrapage conservée)
    L'UE est acquise si note finale transposée >= C
    • Crédits ECTS acquis : 4 ECTS

    La note obtenue rentre dans le calcul de votre GPA.

    Pour les étudiants du diplôme Echanges PEI

    Le rattrapage est autorisé (Note de rattrapage conservée)

      La note obtenue rentre dans le calcul de votre GPA.

      Pour les étudiants du diplôme M1 High Energy Physics

      Le rattrapage est autorisé (Note de rattrapage conservée)
        L'UE est acquise si note finale transposée >= C
        • Crédits ECTS acquis : 4 ECTS

        La note obtenue rentre dans le calcul de votre GPA.

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